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CN-224222075-U - Manual inspection table for steel balls in process operation

CN224222075UCN 224222075 UCN224222075 UCN 224222075UCN-224222075-U

Abstract

The utility model relates to the technical field of steel ball inspection tables. Relates to a manual inspection table for steel balls in a process operation. The manual steel ball inspection table for the flow operation comprises a table body, wherein the table body is provided with an inspection flow channel, a ball storage flow channel and a deceleration flow channel, the inspection flow channel and the ball storage flow channel are arranged in parallel, the ball storage flow channel is communicated with a feeding end of the inspection flow channel, the deceleration flow channel is arranged at a discharging end of the inspection flow channel and is communicated with the inspection flow channel, at least one inspection station structure is arranged on the inspection flow channel, the inspection station structure comprises a baffle, a to-be-inspected buffering bin, an incomplete storage bin and an incomplete classification frame, the to-be-inspected buffering bin and the incomplete storage bin are sequentially arranged on one side of the inspection flow channel along the flow direction of steel balls, the baffle is slidably arranged on the flow channel and blocks the flow channel, and the baffle is arranged close to the incomplete storage bin. The utility model avoids the phenomena of low inspection efficiency and easy missed inspection, reduces the personal operation pressure and ensures the appearance quality of the steel ball.

Inventors

  • Mao Qingfei
  • LI SONG
  • BAI XINWEN
  • Feng Rizhuo
  • WANG KAI
  • ZHANG CHENG
  • YUAN HAOBO
  • LIU YUAN
  • LI TAIFENG
  • ZHANG XIAOTONG

Assignees

  • 洛阳轴承集团股份有限公司

Dates

Publication Date
20260512
Application Date
20250509

Claims (4)

  1. 1. A manual inspection table for a steel ball for flow operation is characterized by comprising a table body, wherein the table body is provided with an inspection flow passage, a ball storage flow passage and a deceleration flow passage, the inspection flow passage and the ball storage flow passage are arranged in parallel, the ball storage flow passage is communicated with a feeding end of the inspection flow passage, the deceleration flow passage is arranged at a discharging end of the inspection flow passage and is communicated with the inspection flow passage, at least one inspection station structure is arranged on the inspection flow passage, the inspection station structure comprises a baffle plate, a to-be-inspected buffering bin, a defective storage bin and a defective storage bin, the to-be-inspected buffering bin and the defective storage bin are sequentially arranged on one side of the inspection flow passage along the flow direction of the steel ball, a plurality of defective storage bins are arranged in the defective storage bin side by side, the baffle plate is installed on the flow passage in a sliding mode and blocks the flow passage, and the baffle plate is arranged close to the defective storage bin.
  2. 2. The manual inspection bench for steel balls for flow-through operation of claim 1, wherein the bottom surfaces of the ball storage runner, the inspection runner and the deceleration runner are provided with continuous and smooth slopes.
  3. 3. The manual inspection bench for steel balls for flow-through operation according to claim 1, wherein deceleration strips are arranged on the bottoms of the ball storage flow passage, the inspection flow passage and the deceleration flow passage.
  4. 4. The manual inspection bench for steel balls for flow-through operation of claim 1, wherein the feeding end of the inspection flow channel and the discharging end of the deceleration flow channel are respectively provided with a choke assembly, the choke assembly comprises an air bag and an electromagnetic valve, the air bag is respectively arranged on the feeding end of the inspection flow channel and the discharging end of the deceleration flow channel, the air outlet end of the electromagnetic valve is communicated with the air inlet end of the air bag, and the air inlet end of the electromagnetic valve is communicated with an external air source.

Description

Manual inspection table for steel balls in process operation Technical Field The utility model relates to the technical field of steel ball inspection tables, in particular to a manual steel ball inspection table for flow operation. Background The steel ball is used as the roller of the large bearing, the roundness and good appearance quality are important, and the steel ball enters a cleaning machine for cleaning after the machining is finished, is cleaned, dried and finally packaged. However, in order to ensure that each steel ball can leave the factory with the quality specification of the top-quality product, the appearance inspection is generally carried out before packaging, whether collision, scratch or spot exists or not is judged, and the traditional steel ball inspection mode is that a quality inspector stacks the steel balls on an inspection table and then inspects the steel balls under light. Disclosure of utility model The utility model aims to provide a manual steel ball inspection table for flow operation, which solves the problems that the traditional steel ball inspection table is single operation, each person is responsible for all appearance inspection items, the efficiency is low, and the inspection omission phenomenon is easy to occur. In order to solve the technical problems, the utility model adopts the following technical scheme: The manual inspection table for the steel balls in the process operation comprises a table body, wherein the table body is provided with an inspection flow passage, a ball storage flow passage and a deceleration flow passage, the inspection flow passage and the ball storage flow passage are arranged in parallel, the ball storage flow passage is communicated with the feeding end of the inspection flow passage, the deceleration flow passage is arranged at the discharging end of the inspection flow passage and is communicated with the inspection flow passage, at least one inspection station structure is arranged on the inspection flow passage, the inspection station structure comprises a baffle plate, a to-be-inspected buffering bin, a defective storage bin and a defective classification frame, the to-be-inspected buffering bin and the defective storage bin are sequentially arranged on one side of the inspection flow passage along the flow direction of the steel balls, a plurality of defective classification frames are arranged in the defective storage bin side by side, the baffle plate is arranged on the flow passage in a sliding mode and is close to the defective storage bin. The ball storage runner, the inspection runner and the bottom surface of the deceleration runner are all provided with continuous smooth slopes. And deceleration strips are arranged on the bottoms of the ball storage flow channel, the inspection flow channel and the deceleration flow channel. The feeding end of the inspection flow channel and the discharging end of the deceleration flow channel are both provided with flow blocking components, each flow blocking component comprises an air bag and an electromagnetic valve, each air bag is respectively arranged on the feeding end of the inspection flow channel and the discharging end of the deceleration flow channel, the air outlet end of each electromagnetic valve is communicated with the air inlet end of each air bag, and the air inlet end of each electromagnetic valve is communicated with an external air source. The table body is provided with a table lamp. One side of the table body is provided with a seat. The utility model provides a manual inspection table for a steel ball in a flow operation, which changes all appearance items of a traditional single steel ball inspection, avoids the slow inspection efficiency and the extremely easy occurrence of missed inspection, enables a plurality of inspection stations to form a plurality of manual flow inspection works simultaneously, distributes the appearance inspection items of the steel ball to each person, reduces the personal operation pressure, and enables the manual work positioned at the downstream of the inspection to eliminate the detected missing of the upstream inspection, thereby ensuring the appearance quality of the steel ball. Drawings Fig. 1 is a schematic structural view of a manual inspection table for steel balls in a process operation according to the present utility model. Reference numeral 1, a table body; 2, an inspection flow passage, 3, an inspection station structure, 4, a baffle, 5, a to-be-inspected cache bin, 6, a defective storage bin, 7, a defective classification frame, 8, a ball storage flow passage, 9, a deceleration flow passage, 10, a flow blocking component, 11, an air bag, 12, an electromagnetic valve, 13, a desk lamp, 14, a seat, 15 and a deceleration strip. Detailed Description For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodimen